Liquid filter and cooler



July 27, 1937'. c. P. GESNER 2,087,887

LIQUID FILTER AND COOLER Filed May 16, 1954 2 snets-sneet 1 July 27, 1937'. c. P. GESNER '42,087,887

LIQUID FILTER AND COOLER Filed May 16, 1954 2 Sheets-Sheet 2 Patented July 27, 1937 UNITED STATES PATENT oFFIcE 6 Claims.

This invention relates to the art of liquid filtration and more particularly to a liquid lter, per se, and in combination with a cooler therefor.

Liquid filters of various forms have been in use for a number of years but no one of them has en-` joyed universal acceptance by the public and come into general use. 'Ihis is. due to various disadvantages, the principal one being the necessity of recharging the filter with fresh filtering material or of dismantling the filter to clean its parts at frequent intervals in order to obtain even normal eiiiciency of operation. A filtering material, commonly known as decolorizing or activated carbon, has more or less recently come into general use for liquid filtration in large installations such as water works, bottling works and distilleries. A peculiarity of this material is that it is high in carbon content, dense and hard, thus giving it very long life foriquid purification work, as it does not dissolve or readily disintegrate, and that in water filtration work it removes substantially all organic matter, algae and their spores, reduces iron and any corrosive substance in the water, as well as removing odors and taste.

Another peculiarity of this material is that after continuous use for a period of time it may be readily cleansed either by Washing or by the application of heat and subsequently be substantially efficient in its filtration action for another period of time. y

One of the objects of this invention is to provide a liquid filter of such structure that the advantages desired will be obtained and which may be readily operated and substantially continuously efllcient.

Another object of this invention is to provide a liquid filter in the structure of which is included liquid fiow control means whereby the filtering material may be properly and efliciently cleansed in a convenient and readily operated manner.

Still another object is to provide a combined liquid filter and liquid cooler wherein the liquid flowing therethrough will be efiiciently filtered and cooled before use.

A further object is to provide a li'quid flow control mechanism for filters of thev above type, whereby filtered liquid may be obtained with convenience and despatch and the filtering material may be readily cleansed when desired.

To these and other ends, the invention consists in the novel features and combinations of parts `to be hereinafter described and claimed.

In the accompanying drawings:

(Cl. 21o- 77) Fig. 1 is an elevation of a liquid filter, embodying the features of this invention;

Fig. 2 is an enlarged vertical section of the filter shown in Fig. 1;

Fig. 3 is a partial section, showing another position of a liquid fiow control means;

Fig. 4 is a section on line 4-4 of Fig. 2;

Fig. 5 is a section on line 5'5 of Fig. 2:

Fig. 6 is a partial vertical section of a slightly modified form. of flow control means;

Fig. 'l is a vertical section through a combinedl liquid filter and cooler;

Fig. 8 is a partial section of the same;

Fig. 9 is a partial section through the liquid filtering means of such a combination to show the liquid flow control mechanism;

Fig. 10 is a partial section similar to Fig. 9, but showing the control mechanism in another position, and

Fig. 11 is a partial side view of the combined liquid filter and cooler to show the indicating means for the liquid control means.

The embodiment illustrated in the drawings is of a liquid filter primarily adapted to use activated or decolorizing carbon as the filtering material. This material as used in filters of this nature, is in granular form and in this instance is loosely disposed in a container shell I0, between discs II and I2. A top cap I3 is provided for the container shell I0, which, when removed, permits access to the interior of the latter to facilitate assembly of the filtering material and screens therein. f

A lower cap I4 is also provided which may be removably secured to the lower end of container shell I0, if desired, or it may be permanently sealed thereto. A tube I5 is seated in a recessed boss I6 formed on the upper surface of cap I4 and extends upwardly therefrom through the shell I0, and the filtering material therein, with its upper end above the screen II and slightly below the undersurface of top cap I3. An annular flange I1 extends inwardly from each cap into contact with the adjacent screen II or I2 to support the center portion of same. Notches I8 are provided in these flanges to permitthe flow of liquid therethrough and to spread and direct the liquid substantially equally in all directions over the exposed surface of the filtering material. An opening I9 is provided in cap I4 in communication with the interior of tube I5, and openings and 2l are also provided in cap I4y in communication with the interior of shell Ill.

In the filter shown in the drawings, the liquid flow, when the same is being filtered, is upwardly through opening I9, tube I5, then through screen Il, a body of filtering material 22, which is preferably activated carbon in granular form, screen I2, and out of the container, through opening 2|. A faucet 23 is provided having a valve 24 normally retained closed by means of a spring 25 and operable against spring pressure by means of a button 26. The button 26 is provided with an annular recess 21 into whichmay be disposed apin 28 to retain it and the valve in open position. 'Ih'e pin 28 is normally retained out of engagement with'the button 26 by means of a spring 29.

Secured to faucet 23 is a liquid fiow directing member or stem 30 which, in this instance, is cylindrical and extends rearwardly from the faucet 23 and into a casing 3|, disposed upon the lower cap I4. The stem 3|) is secured within, and the faucet 23 is secured to the casing 3| by means of a stuffing box gland nut 32, the gland 33 compressed thereby preventing liquid leakage from between the stem and the casing interior. 111e gland nut 32 is provided with a head 34, which is serrated about its periphery as shown at 35, see Flg. 5 whereby the faucet 23 may be locked thereto against relative rotation therewith by a -thumbscrew 36, which has a. pointed end 31 adapted to t into any one of the serrations 35. The stem at its reduced portion 38, is free to rotate in the gland nut 32 and is tightly threaded into the faucet 23. By loosening thumbscrew 36 the faucet 23 and stem 30 may be rotated rel-atively to the gland nut 32 and casing 3|, for a purpose to be hereinafter described.

The casing 3| is provided with ports 39 and 40 into which tubes or pipes 4I and 42 may be respectively threaded. 'I'he pipe 4I is provided for use as a drain or waste pipe, while the pipe 42 is for connection with a source of liquid supply, for instance, a water supply line. The stem 36 is provided with a plurality of passages arranged to selectively connect into communication the ports 39 and 40 and the faucet discharge opening 43 with the openings I9, 20 and 2|, provided in cap I4 as desired by the rotation of the stem relatively to the casing. For instance, referring to Fig. 2, through a. passageway 44 the liquid supply inlet 40 is in communication through opening I9 with the tube I5, directing'A the incoming liquid to the top of the container for discharge above the screen II, and a passageway 45 connects the opening 2| into communication with a passageway 46 leading into a valve chamber 41 in faucet 23 from which liquid may be drawn by operation of valve 24, and discharged from passageway 43. It will be obvious that while fiowing from the inlet 4Il the liquid will compact the granular material 22 and filter downwardly therethrough and be acted upon thereby.

After considerable liquid has been filtered and it is desired to cleanse the filtering material, the thumbscrew 36 is loosened and the faucet 23 with stem 30 is rotated into the position shown in Fig. 3. In this instance, the inlet passage 40, by means of a bypass 48, is connected into communication with opening 20 in the lower cap I4 and the passage 44 is disconnected from communication with opening I9. At the same time, the drain or waste outlet 39 is connected into communication with the opening I9 by a passageway 49, and the passageway 45 is disconnected from the opening 2|. 'I'he obvious flow of liquid in this latter instance, is, therefore, from. the inlet 40 through passageway 48, opening 20 and upwardly through the filtering material 22,.-

and then downwardly through tube I5, passageway 49, port 39 and discharged through pipe 4|.

When cleansing or washing the filtering material full pressure of the liquid from its supply is desired, in order to disturb and force out all foreign matter filtered from the liquid and to agitate the loosely packed carbon granules to clean the surfaces thereof, but Awhen filtering, it is desirable that the flow be controlled to a known Volume for a predetermined period of time. VControl means for this purpose has been provided and comprises a spring pressed ball 56, spring 5| and an adjusting sleeve 52 threaded into the end of the stem 30 where the latter engages thefaucet 23. Adjustment of spring tension by means of sleeve 52 will vary the rate of flow whereby a constant rate of filteringv will be obtained regardless of the particularliquid pressure encountered Where the filter is installed. When cleansing the filtering material by the arrangement shown in Fig. 3, the normal rate of flow of the liquid being filtered as it enters the filter, is used, without reduction, in order to get a forceful iiow.

The lower screen I2 is removable with tube I5 by resting upon a washer 53 which is permanently secured to tube I5. When it becomes desirable tochange the filtering material 22, the top cap I3 is removed and the contents may then be lifted out by raising tube I5. The washer 53, as illustrated, overlies the part 25 whereby it acts as a baflie to break the force of the liquid iiowing upwardly and to spread the same transversely with respect to the direction of its flow.

In the modified form shown in Fig. 6, the iiow control means includes a member 51 that is similar to member 30, except that it is tapered and is held into tight engagement with the casing 58, by means of a spring 54. The spring 54 acts against the large end of the taper of member 51 and against the gland nut 32 to force the member 51 axially. An inlet port 55 is provided in the end and a wash drain outlet 56 in the bottom of the casing 58.

Figs. '7 to 11 inclusive, illustrate the provision of colling means for a filter of the above structure. In this instance, the filter 60 is disposed in the upper section of a cabinet 6| with the outer wall of its shell 62 being surrounded by a body of refrigerant fluid 63, or the like. The cooling means generally comprises any well known type of electric refrigerator mechanism and includes a motor driven operating unit 64 having the usual condenser 65, which is connected by a tube 66 to the usual control mechanism 61. From the control mechanism 61 the refrigerant 63 is directed by a pipe 68 into a space about shell 62 formed by a jacket 69. From the jacket 69 the refrigerant returns to the operating unit 64 through pipe 1U.

The structure and operation of the filter 60 is in most respects the same as the one illustrated in Figs. 1 to 5, inclusive. In this instance, however, a slightly modified form of liquid flow control means is provided. The bottom cap 1| of the lter is provided as in the previous form of a casing 8I, disposed upon the bottom cap 1|. A waste or drain pipe 82 connected to a waste main 83 is also in communication with the interior of casing 8|. ,A pipe 84, connects the interior of casing 8| with a discharge faucet 85 mounted upon one side of the cabinet 6 I. A suitable drip basin 83 is provided and disposed below faucet 85. A liquid flow directing member 81 corresponding to the stem 30 is disposed in casing 8| and is rotatable relatively thereto. A stuffing box gland nut 88 threaded into an end of casing 8| retains member 81 in said casing against liquid leakage. An extension 98 of member 81 is thi'eadingly engaged by an operating rod 9| which extends through the cabinet 6| to the exterior of a side thereof. An operatinghandle 92 is secured to rod 9| extcriorly of said cabinet side. The handle 92 is provided in this instance with a pointer 93 associating with indicia disposed upon the cabinet to indicate the position of member 81 relative to casing or cabinet 6|.

The member 81 is provided with passageways or ducts 94, 95, 9S and 9.1 that substantially correspond in form and use with passageways 44, 49, 45 and 48, respectively. The liquid enters casing 8| through pipe 19, flows through duct 94, opening 13, tube 15 to the top ofyfilter 60 and then filters downwardly through the filtering material 18 and out through opening 14, duct 96 into pipe 84 and then to faucet 85 when the member 81, by operation of rod 9|, is disposed in position as shown in Fig. 8. When the member 81 is in this position, the filter is in operation and the indicating pointer 93 indicates filter, that is, that filtration of the liquid is possible. When the member 81 is rotated by handle 92 through rod 9| into the position shown in Fig. 9, the .pointer 93 indicates wash and in this instance, the filtering material is being cleansed due to the liquid flow being from pipe 19 into casing 8|, through duct 91, opening 12 upwardly through filtering material 18, downwardly through tube 15, opening 13, through duct 95 and out through drain pipe 82.

While filtering liquid by the arrangement of parts shown in Figs. 7 to 11 inclusive, thecooling, such as above described, is automatically 'operated' to maintain the filter 80 and the liquid contained therein atv a predetermined and con- "stant temperature, insuring pure, cooled water in the case where the liquid being filtered is water. The removal of a cabinet top 98, interior cover 99 and filter top cap |89, facilitates the assembly of the filter parts or the change of filtering material whenever the same is desired.

By the provision of a filter of the above de- -scribed structure, liquids may be filtered efficiently through granular filtering material 'and especially filtering material having the characteristics of activated or decolorizing carbon, without the disadvantage, expense and inconvenience of frequent replacement of such material. By the.

use of activated carbon it has been found that under normal conditions and use and by an occa- 'sional cleansing, the filtering material will continue to efficiently operate to filter liquids for at least a year. A comparatively large saving of expense and time is, therefore, occasioned by the use of the filter of this invention. The combination of features, including the lter with the liquid flow control means described above, permits the efficient use of activated carbon as a ltering material and the inclusion of liquid coolfing means in such a combination permits a user to obtain from the local mains, at nominal ex-l pense, filtered water'substantially equal in quality to distilled water and generally more palatable.

While I have shown and described a preferred embodiment of my invention, it is to be understood that the same is not to be limited to all of the details shown, but is capable of modification and variation within the spirit of the invention and the scope of the appended claims.

What I claim is:

1. In a liquid filter, a container having filtering material therein, said `filter having an inlet, an openable faucet outlet and a waste outlet, means connected to said faucet and rotatable thereby to selectively direct liquid from the inlet to said faucet outlet in one direction and from the inlet to said waste outlet in the reverse direction through said material, adjustable means to vary the rate of ow to said faucet outlet, means to open and close said faucet outlet, and means to lock said last named means in open position.

2. In a liquid filter, a container, a mass of granular activated carbon in said container, an inlet passageway to the upper surface of said mass of carbon, an inlet port beneath the'lower surface of said carbon, an outlet port beneath the lower surface of said carbon, an openable faucet outlet for said filter, a waste outlet for said filter, means connecte-d to said faucet for actuation thereby to selectively direct liquid through said inlet passageway and through said inlet port, said lmeans connecting said outlet port with said faucet outlet for said filter when directing liquid through said passageway, said means connecting said passageway with said waste outlet when directing liquid through said inlet port, and means to vary the rate of flow of liquid through said carbon when it is directed out of said outlet port.

3. In a filter for liquids, a container having filoperating member to engage said gland nut to remove the same.

4. In a filter for liquids, a .container having filtering material therein, a casing, said casing having an inlet, an outlet and a waste outlet means to selectively direct liquid through saidmaterial from the inlet to said outlet in one direction, and from the inlet to said Waste outlet in the reverse direction, said means comprising a member rotatably mounted in sai-d casing, a. faucet member in connection with said outlet and secured ,to one end of said rotatable member whereby to rotate the same, means to open said faucet to permit liquid to flow therethrough, means to lock said faucet opening means in open position, an outlet port in said faucet and a passageway in said rotatable member, and adjustable means Idisposed between the outlet port in said faucet and the passageway in said member to vary the rate of flow of liquid from one to the other.

5. In a liquid filter, a container having activated carbon therein, a casing at the bottom of said container, a. passageway through said consaid casing, passageways in said rotatable member to selectively connect said ports in said casing with said passageway through said container and said inlet port in said casing with the inlet port in said container, a passageway in said member connecting with said outlet port in said container, an openable faucet in connection with said last named passageway in said member, adjustable means between said faucet and said last named passageway to vary the rate of flow of liquid therethrough, said faucet being secured to said member to rotate the same to selectively cause liquid to flow downwardly through said carbon at a controlled rate of flow and upwardly through said carbon at an uncontrolled rate of flow.

6. In a liquid lter, a container having filtering material therein, an inlet to direct the fiow of liquid entering said container to one side of said ltering material, an inlet to direct the ow of liquid to the other side of said ltering material, an outlet port, an openable discharge member, adjustable means to control the rate of flow of the liquid through said discharge member when said member is open, a drain passage, a flow direction control member operable by said discharge member, said ow direction control member having passageways therein whereby liquid may be selectively directed first to one of said inlets and to said discharge member and then to the other of said inlets and to said drain passage.

.j CARLTON P. GESNER. 

